JP2017062619A - Storage battery system, storage battery monitoring system, and storage battery information collection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a storage battery system, a storage battery monitoring system, and a storage battery information collection method that can simplify work until normal operation of the storage battery system.SOLUTION: A storage battery system comprises: an information collection unit 15 for collecting storage battery information on a storage battery; a communication adaptor 11 for transmitting the collected storage battery information to a monitoring device via a prescribed communication path; a QR code generation unit 16 for generating a code display including the whole or part of the storage battery information and information on the destination of the monitoring device; and a display control unit 13 for having the code display displayed on a display screen if the storage battery information is not transmitted to the monitoring device.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a storage battery system, a storage battery monitoring system, and a storage battery information collection method.

  Conventionally, household storage battery systems have been commercialized. By using a storage battery system, you can store cheap power at night and use it in the daytime, or store and use power generated by a solar power generation system. Can do.

In such a storage battery system, in order to operate normally when an error occurs, a complicated work such as requesting a visit work by a person in charge may be required.

Japanese Patent Laying-Open No. 2015-163025

  An embodiment of the present invention aims to provide a storage battery system, a storage battery monitoring system, and a storage battery information collecting method that can simplify the work until the storage battery system is normally operated.

  The storage battery system according to the embodiment includes an information collection unit that collects storage battery information related to a storage battery; a communication unit that transmits the collected storage battery information to a monitoring device via a predetermined communication path; all or one of the storage battery information A code generation unit that generates a code display including information on a part and information on a destination of the monitoring device; a display control unit that displays the code display on a display screen when the storage battery information is not transmitted to the monitoring device; It comprises.

  According to the embodiment of the present invention, there is an effect that the work until the storage battery system is normally operated can be simplified.

The block diagram which shows the storage battery monitoring system in which the storage battery system which concerns on the 1st Embodiment of this invention was integrated. The flowchart for demonstrating operation | movement of a monitoring apparatus. The flowchart for demonstrating the information transfer process in a storage battery system. The flowchart which shows the operation | movement flow employ | adopted in the storage battery system which concerns on the 2nd Embodiment of this invention. The block diagram which shows the modification of this invention. The flowchart which shows the determination flow of the notification possibility of the control part 52 in the modification of FIG.

  The storage battery system according to the embodiment includes an information collection unit that collects storage battery information related to a storage battery; a communication unit that transmits the collected storage battery information to a monitoring device via a predetermined communication path; all or one of the storage battery information A code generation unit that generates a code display including information on a part and information on a destination of the monitoring device; a display control unit that displays the code display on a display screen when the storage battery information is not transmitted to the monitoring device; It comprises.

  The display control unit controls display when the storage battery information is not transmitted to the monitoring device based on a user's display operation.

  Further, the display control unit controls display when the storage battery information is not transmitted to the monitoring device based on the log of the communication unit.

  Moreover, the storage battery monitoring system according to the embodiment includes an information collection unit that collects storage battery information related to a storage battery, a communication unit that transmits the collected storage battery information to a monitoring device via a predetermined communication path, and the storage battery information. A code generation unit for generating a code display including all or a part of information and information on the destination of the monitoring device; and display control for displaying the code display on a display screen when the storage battery information is not transmitted to the monitoring device A storage battery system comprising: a monitoring unit that collects the storage battery information transmitted by the communication unit and collects information included in the code display based on a user transmission operation based on the code display; It comprises.

In the storage battery information collection method according to the embodiment, the information collection unit collects storage battery information related to the storage battery; the communication unit transmits the collected storage battery information to a monitoring device via a predetermined communication path; A generating unit that generates a code display including all or a part of the storage battery information and destination information of the monitoring device; and a display control unit that generates the code when the storage battery information is not transmitted to the monitoring device. The display is displayed on the display screen.
(First embodiment)
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a storage battery monitoring system in which a storage battery system according to a first embodiment of the present invention is incorporated.

  In FIG. 1, a storage battery 20 is disposed in a house, for example, so that it can store power by receiving power from a distribution board (not shown) and supply the stored power to a load-side circuit. It has become. The controller 10 includes a power storage control unit 17, and the power storage control unit 17 can control charging and discharging of the storage battery 20.

  The controller 10 has a control unit 12. The control unit 12 may be configured by a processor such as a CPU (not shown) or may operate according to a program stored in a memory (not shown). The control unit 12 can control each unit in the controller 10.

  The information collection unit 15 is controlled by the control unit 12 to display various information related to the storage battery 20, such as operating status, charge amount, discharge amount, remaining power (SOC) information, error information, and the like (hereinafter referred to as storage battery information). Can be collected. For example, the information collecting unit 15 collects information every predetermined time. The information collecting unit 15 is controlled by the control unit 12 so that the collected storage battery information can be stored in the storage unit 14. Note that the information collection unit 15 may acquire the error information of the storage battery information as needed every time an error occurs.

  The communication adapter 11 can transmit and receive information via a predetermined communication path. In the example of FIG. 1, the communication adapter 11 can transmit and receive information by connecting to a network 60 such as the Internet via the router 40. Thereby, the control unit 12 can transmit all or a part of the storage battery information stored in the storage unit 14 to a predetermined communication partner on the network 60 via the router 40 by the communication adapter 11. It has become. The communication adapter 11 can set destination information, and the monitoring device 50 may be set as a communication partner.

  The monitoring device 50 can access the network 60 and can receive data transmitted from the controller 10. The server 51 of the monitoring device 50 can accumulate the data transmitted from the controller 10. A plurality of storage battery systems having the same configuration as in FIG. 1 can be connected to the network 60, and storage battery information relating to storage batteries provided in each system is uploaded from these storage battery systems. The server 51 manages and stores the storage battery information transmitted via the network 60 together with ID information (for example, information on the manufacturing number) of the corresponding storage battery system and contact information corresponding to the ID information. It has become.

  The monitoring device 50 has a control unit 52. The control unit 52 may be configured by a processor such as a CPU (not shown) or may operate according to a program stored in a memory (not shown). The control unit 52 can control each unit in the monitoring device 50.

  The control part 52 can grasp | ascertain the condition of each storage battery system, etc. by monitoring the storage battery information of each storage battery system transferred to the server 51. FIG. Further, the control unit 52 may detect whether or not the storage battery information to be stored in the server 51 is stored, that is, whether or not the storage battery information is collected in the server 51 by a predetermined time. It can be done. The notification unit 53 is controlled by the control unit 52, and when the storage battery information has not been collected even after a predetermined time, the notification unit 53 sends the contact information corresponding to the storage battery information together with the ID information of the storage battery system. A message indicating that the storage battery information to be stored has not been collected and is not stored is notified.

  For example, the control unit 52, based on the content of the stored battery information and the history of collection, can store the storage battery information by the time it should be transmitted and not accumulate it, so that the predetermined time has passed. You may determine that it has not been collected. Moreover, the notification part 53 may notify the message which shows that it is uncollected even if predetermined time passes, with respect to the terminal of the person in charge of the said storage battery system by e-mail etc.

  Generally, the person in charge who has received notification that the storage battery information has not been collected by e-mail or the like has not yet collected the storage battery information from the seller of the storage battery system or directly to the user who owns the storage battery system. This is communicated by telephone or e-mail.

  Conventionally, a user who has received such communication has required many relatively complicated operations in order to operate the storage battery system normally. On the other hand, in the present embodiment, the controller 10 includes a QR code generation unit 16 as a code generation unit in order to simplify the user's work.

  The QR code generation unit 16 is controlled by the control unit 12, and based on the storage battery information stored in the storage unit 14, the communication destination information set in the communication adapter 11, and the ID information of the storage battery system, A code that can be easily read and used by a general terminal device such as a mobile phone, for example, a QR code (registered trademark) is generated. The QR code generation unit 16 generates not only a QR code (registered trademark) but also a matrix type two-dimensional code or a one-dimensional bar code of another method as long as it can be easily used by a general terminal device. It may be like this. In addition, the QR code generation unit 16 generates not only a QR code (registered trademark) based on all the information of the storage battery information, but also a QR code (based on error information, for example, a part of the storage battery information). (Registered trademark) may be generated. Further, the QR code generation unit 16 may generate the QR code (registered trademark) based on the ID information and the storage battery information of the storage battery system by omitting the communication destination information.

  The QR code (registered trademark) generated by the QR code generation unit 16 is supplied to the display control unit 13. The display control unit 13 is controlled by the control unit 12 to display a QR code display on the display screen of the display unit 30. For example, the control unit 12 may control to display the QR code display at a timing based on a user operation on the input unit 18 provided in the controller 10.

  In this case, for example, when the user is notified that the storage battery information has not been collected, the user operates the input unit 18 to display the QR code display. The QR code display includes, for example, storage battery information to be transmitted and information on a communication partner. For example, the user reads the QR code display with a terminal such as a smartphone, and captures the ID information, the storage battery information, and the communication partner information into the smartphone. A general smartphone application has a function of transmitting information specified by a QR code (registered trademark) to a communication partner specified by the QR code (registered trademark) by reading a QR code display. In this case, the user can transmit the ID information and the storage battery information to the communication partner by reading the QR code display. In general, in this type of application, by reading the QR code display, it is connected to the URL or the like of the communication partner, and a message asking whether it is possible to send information to the communication partner. In many cases, the ID information and the storage battery information are transmitted from the smartphone or the like to the monitoring device 50 via a predetermined transmission path such as a public wireless line or a telephone line by performing an operation of permitting transmission. It is supposed to be transmitted.

  Next, the operation of the embodiment configured as described above will be described with reference to FIGS. FIG. 2 is a flowchart for explaining the operation of the monitoring device, and FIG. 3 is a flowchart for explaining information transfer processing in the storage battery system.

  In the storage battery system, charging / discharging of the storage battery 20 is controlled by the power storage control unit 17 of the controller 10. In step S <b> 11, the control unit 12 controls the information collecting unit 15 to collect storage battery information regarding the storage battery 20. The information collecting unit 15 acquires, for example, storage battery information such as operation status, charge amount, discharge amount, remaining power storage (SOC) information, error information, and the like at predetermined time intervals and stores the information in the storage unit 14.

  In step S12, the control unit 12 determines whether or not the transmission time for which the current time is set has been reached. When the transmission time is reached, the control unit 12 performs server transmission control in step S13. That is, the control unit 12 reads out the storage battery information to be transmitted from the storage unit 14 and gives it to the communication adapter 11. The communication adapter 11 is set with information regarding the monitoring device 50 as a communication partner, and the communication adapter 11 transmits the storage battery information read from the storage unit 14 to the monitoring device 50.

  Thus, in the storage battery system of FIG. 1, for example, storage battery information collected every 30 minutes is transmitted to the monitoring device 50 once a day. The control unit 12 determines whether or not an operation for displaying the QR code has been performed in step S14. Until this operation is performed, the collection and transmission operation of the storage battery information is repeated in steps S11 to S13.

  The storage battery information from the communication adapter 11 of the storage battery system is transmitted from the router 40 to the network 60 and supplied to the monitoring device 50 connected to the network 60. The control unit 52 of the monitoring device 50 stores the received storage battery information in the server 51 together with the ID information of the corresponding storage battery system and the information of the person in charge.

  The control part 52 of the monitoring apparatus 50 monitors the storage battery information memorize | stored sequentially in step S1 for every storage battery system. In step S2, the control unit 52 determines whether or not the storage battery information is normally collected for each storage battery system. The control unit 52 can determine whether or not the storage battery information is normally collected by monitoring the content of the storage battery information stored in the server 51 and the storage history of the storage battery information. When the control unit 52 determines that the storage battery information is not normally collected, the control unit 52 controls the notification unit 53 and issues a notification to that effect to the person in charge (step S3).

  For example, the notification unit 53 notifies the person in charge of the storage battery system determined that the storage battery information is not normally collected by e-mail or the like. The person in charge notifies the user of the storage battery system in which the storage battery information has not been collected, that the storage battery information has not been collected normally, directly or via a dealer (step S4). This communication is performed through a telephone line or the Internet by a telephone call or electronic mail.

  The user who has received such a communication performs a display operation for displaying a QR code (registered trademark) by using, for example, the input unit 18 in order to operate the storage battery system normally. In step S <b> 14, the control unit 12 monitors whether or not a display operation has been performed by the input unit 18. When this display operation is performed by the user, the control unit 12 controls the QR code generation unit 16 to generate a QR code (registered trademark).

  That is, the QR code generation unit 16 reads out the storage battery information stored in the storage unit 14 and acquires information on the communication destination set in the communication adapter 11, and stores the storage battery information, the communication destination information, and the storage battery. A QR code (registered trademark) based on the ID information of the system is generated (step S15). The QR code generation unit 16 outputs the generated QR code (registered trademark) to the display control unit 13. The display control unit 13 is controlled by the control unit 12 to display a QR code display based on the QR code (registered trademark) from the QR code generation unit 16 on the display screen of the display unit 30 (step S16).

  Thus, the user can display the QR code display including the ID information, the storage battery information, and the communication destination information by an extremely simple operation such as pressing an operation button for displaying the QR code provided in the input unit 18, for example. . Since general users cannot grasp the information to be transferred and the transfer destination from the QR code display, they do not have to worry about the next operation by looking at the display on the display screen. The user may perform a simple operation of operating the terminal device that can use the QR code (registered trademark) and reading the QR code (registered trademark).

  For example, a user reads a QR code display with a terminal such as a smartphone, takes ID information, storage battery information, and communication partner information into the smartphone, and touches a transmission button on the smartphone touch panel if necessary. Perform a simple send operation.

  Thereby, a smart phone transmits ID information and storage battery information with respect to the monitoring apparatus 50 which is a designated communication partner. Thus, the storage battery information is transmitted from the smartphone to the monitoring device 50 through a predetermined transmission line such as a public wireless line or a telephone line.

  As described above, in the present embodiment, when the storage battery information is not collected, the user operates the input unit to display the QR code (registered trademark), and displays the displayed QR code as a smartphone or the like. The storage battery information can be transferred to the monitoring device by an extremely simple operation of reading by the terminal and performing the transmission operation. Thus, the work until the storage battery system is normally operated can be remarkably simplified.

FIG. 3 shows an example in which the QR code (registered trademark) is generated and displayed after the display operation. However, after generating the storage battery information to be transmitted, the QR code (registered trademark) is generated and displayed by the display operation. A QR code display may be displayed.
(Second Embodiment)
FIG. 4 is a flowchart showing an operation flow employed in the storage battery system according to the second embodiment of the present invention. The hardware configuration of this embodiment is the same as that of the first embodiment.

  In the first embodiment, the storage battery system displays a QR code display when the user performs a display operation. In contrast, in the present embodiment, the storage battery system determines that the storage battery information has not been collected in the monitoring device, so that the QR code display is automatically displayed.

  The communication adapter 11 generally has a function of holding a communication log. For example, the communication log of the communication adapter 11 is stored in the storage unit 14. In step S21, the control part 12 acquires the communication log of the communication adapter 11, and confirms communication after progress of the transmission time of storage battery information.

  The control unit 12 determines whether or not the storage battery information is normally transmitted based on the acquired communication log. When it is determined that the storage battery information has been transmitted normally, the control unit 12 returns the process to step S11. When the control unit 12 determines that the storage battery information has not been transmitted normally, the control unit 12 proceeds to step S15 and generates a QR code (registered trademark).

  In the embodiment configured as described above, whether or not the QR code (registered trademark) is displayed is determined by the determination of the control unit 12 regardless of the user operation. The control unit 12 determines whether or not the storage battery information has been normally transmitted by checking the communication log of the communication adapter 11. If the storage battery information has not been transmitted normally, a QR code display is displayed. It will be displayed on the part 30.

  Thus, also in the present embodiment, the user reads the QR code display with a predetermined terminal, takes in the storage battery information and the communication partner information into the terminal, and transmits the storage battery information to the communication partner. Thus, the storage battery information can be transferred to the monitoring device.

  In addition, when displaying the QR code display, the control unit 12 displays the QR code for easily transmitting the storage battery information that the storage battery information is not normally transmitted due to the warning sound or the lighting of the warning lamp. You may make it notify a user to display.

  As described above, also in this embodiment, the same effect as that of the first embodiment can be obtained. Furthermore, in this embodiment, it is possible to display a QR code (registered trademark) without requiring a user operation. That is, in the first embodiment, the person in charge who has received the notification from the notification unit of the monitoring device needs to contact the user and display the QR code (registered trademark) by the user's operation that has received this notification. It was. On the other hand, in the present embodiment, it is determined that the storage battery information is not automatically transmitted after the transmission time of the storage battery information without contacting the person in charge according to the notification from the monitoring device, and the QR code is received. (Registered trademark) is displayed, and work for transmitting storage battery information is performed in a very short time after generation of uncollected storage battery information. In addition, the user only needs to perform a transmission operation using a QR code (registered trademark), and the work until the storage battery system is normally operated can be further simplified.

In the example of FIG. 4, the example in which the QR code (registered trademark) is generated and displayed after the non-transmission determination of the storage battery information has been described, but the QR code (registered trademark) is generated after the storage battery information to be transmitted is generated. In addition, the QR code display may be displayed by determining that the storage battery information cannot be transmitted.
(Modification)
FIG. 5 is a block diagram showing a modification of the present invention. In FIG. 5, the same components as those of FIG.

  In the case of a storage battery system installed in a house, power may not be supplied to the controller 10 due to reasons such as long-term absence of residents. For example, when a resident is absent for a long time on a trip or the like, the main power supply in the house may be turned off. In this case, even when there is no malfunction in the communication adapter 11, the router 40, the network 60, etc., the storage battery information is not transmitted and is not collected by the monitoring device 50. In this modification, notification to the person in charge of the storage battery system is not performed in such a case.

  A smart meter (not shown) that is a power meter having a network communication function with an electric power company is disposed in the house. An electric power company's data management system MDMS (Meter Data Management System) (not shown) is capable of collecting data from a smart meter. MDMS can transmit collected data as storage battery system information to a service provider such as a power retailer via a transmission path called a C route.

  In the modification of FIG. 5, the storage battery system information from the C route is given to the monitoring device 50. The control unit 52 of the monitoring device 50 uses the storage battery system information to turn off the main power supply, for example, when a resident living in the house equipped with the storage battery system is away due to a change in power consumption of the storage battery system. It can be determined that the power consumption is significantly reduced. The control unit 52 is configured to make a determination using the storage battery system information to determine whether the notification unit 53 causes the person in charge to generate an uncollected notification of the storage battery information.

  FIG. 6 is a flowchart showing a determination flow of whether or not the control unit 52 can notify in the modified example of FIG. In FIG. 6, the same steps as those in FIG.

  When determining that the storage battery information is not normally collected in step S2, the control unit 52 of the monitoring device 50 acquires the storage battery system information via the C route in step S31. Based on the acquired storage battery system information, the control unit 52 determines whether or not the corresponding power source in the storage battery system is turned off (step S32).

  For example, in the case where the power consumption is significantly reduced, such as when the resident living in the house with the storage battery system is away, the control unit 52 has the corresponding power supply in the house turned off. Can be determined. When the corresponding power source in the storage battery system is off, the control unit 52 does not normally collect the storage battery information even if the communication adapter 11, the router 40, the network 60, or the like has not failed. Therefore, the person in charge is not notified. Further, when the control unit 52 determines that the corresponding power supply in the house is not off, if the storage battery information is not normally collected, the control unit 52 controls the notification unit 53 to notify the person in charge (step). S3).

  As described above, in this modification, the information from the C route is used, so that the monitoring device reliably determines that the storage battery information cannot be normally collected due to a communication failure, and notifies the person in charge of an accurate message. can do.

  In addition, although the example which acquires storage battery system information via C route was demonstrated in FIG. 5, the information acquired by the home gateway which can collect electric power information in a house by the electric power measurement in a distribution board is used for an internet line etc. Then, it may be taken into the monitoring device. Even in this case, by using the information from the home gateway in the monitoring device, it is possible to reliably determine when the storage battery information cannot be normally collected due to a communication failure and to notify the person in charge of an accurate message. .

  The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention in the implementation stage. Further, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent requirements are deleted from all the constituent requirements shown in the embodiment, the problem described in the column of the problem to be solved by the invention can be solved, and the effect described in the column of the effect of the invention Can be obtained as an invention.

    DESCRIPTION OF SYMBOLS 10 ... Controller, 11 ... Communication adapter, 12 ... Control part, 13 ... Display control part, 14 ... Memory | storage part, 15 ... Information collection part, 16 ... QR code, 17 ... Power storage control part, 18 ... Input part, 40 ... Router 50 ... monitoring device, 51 ... server, 52 ... control device, 53 ... notification unit.

Claims (5)

An information collecting unit for collecting storage battery information about the storage battery;
A communication unit for transmitting the collected battery information to a monitoring device via a predetermined communication path;
A code generation unit that generates a code display including all or a part of the storage battery information and destination information of the monitoring device;
A display control unit for displaying the code display on a display screen when the storage battery information is not transmitted to the monitoring device;
A storage battery system comprising: The storage battery system according to claim 1, wherein the display control unit controls display when the storage battery information is not transmitted to the monitoring device based on a display operation of a user. The storage battery system according to claim 1, wherein the display control unit controls display when the storage battery information is not transmitted to the monitoring device based on a log of the communication unit. An information collecting unit for collecting storage battery information about the storage battery;
A communication unit that transmits the collected storage battery information to a monitoring device via a predetermined communication path;
A code generation unit that generates a code display including all or a part of the storage battery information and the destination information of the monitoring device;
A storage battery system comprising: a display control unit configured to display the code display on a display screen when the storage battery information is not transmitted to the monitoring device;
A monitoring device that collects the storage battery information transmitted by the communication unit and collects information included in the code display based on a user transmission operation based on the code display;
A storage battery monitoring system comprising: An information collection unit collects storage battery information about the storage battery;
A communication unit transmits the collected storage battery information to a monitoring device via a predetermined communication path;
A code generation unit generates a code display including all or a part of the storage battery information and destination information of the monitoring device;
A display control unit displaying the code display on a display screen when the storage battery information is not transmitted to the monitoring device;
Storage battery information collection method.

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